DE2854506A1 - MANUFACTURING PROCESS FOLLOWING THE WINDING PROCESS FOR AN ASBESTOS-FREE CONSTRUCTION PANEL - Google Patents

Description

'' '' PATENT ADVOCATE ^ 8 5 A 5 O 6

DR..ING. Η & 3 *: 7> D !? L irO. ^ ESTABLISHMENT M. St

7 STUTTGART-I, UHLANDSTft 14C

A 43 2o2 m - Registrant: PARAISTEN KALKKI OY

- PARGAS LIME FROM SF-216OO PARAINES Finland

Manufacturing process for an asbestos-free building board raw panel using the winding process

The invention relates to a raw board for the production of an asbestos-free building board Serving manufacturing process following the winding process, in which the wet mass leading to the raw panel cellulose fibers and / or corresponding waste paper as support fibers and hydraulic binder, water as other components and, if necessary, inorganic or organic additional fibers and / or contains mineral aggregates such as diatomaceous earth, perlite, vermiculite, limestone powder, quartz and the like.

In the case of building board production using the winding process, the for the raw board required, ready-mixed wet mass as endless (uninterrupted) thin layer on rotating rollers and endless Mushrooms applied. The mass layer is dewatered with the help of suction boxes acting through the egg and then onto the so-called collecting roller wound up and developed there into a raw panel of the desired thickness. When the desired thickness is reached the raw panel is lifted off the collecting roller and fed as a flat panel for further treatment and hardening. One The machine that works according to this principle is the so-called Hatsehek machine.

Such a manufacturing principle places high demands on the components the wet mass. The binders and any reinforcing materials added must have strength properties of the finished board in the raw board as homogeneously as possible

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be distributed. In no phase Λ- ^ collection and transport process May it be used for the segregation of Nassraasse constituents koim / icn. 3Ue Mass must be homogeneous during the entire manufacturing process Remain state. This is achieved by adding support fibers to the wet mass

a) not too difficult, but also not too easy,

b) must have adhesion to other fibers of the same type,

c) in addition, a reinforcing plate that is as large as possible in the finished panel Must have an effect.

The load-bearing fibers are made at the same time as the other components added (dosed) and mixed before the wet mass is introduced into the production machine.

With the above points in mind, the asbestos fiber is an ideal load-bearing fiber. Processed after the winding process results they are such well-known products as, for example, the ^ Minerit and

^v ~ - Eternit plates. The strength of such panels is satisfactory, so there was no reason to switch to a different supporting fiber.

However, it has long been known that asbestos fibers are harmful to health Have effect, and the resulting restrictive regulations and measures have forced others to do so To work carrying fibers. In particular, there is the .Slick on cellulose fibers and waste paper as a substitute for asbestos in the production of building panels straightened by casting and pressing. In the case of plate production using the winding process, however, such Fibers - i.a. because of their low adhesive strength - not with V / grounding success.

In experiments with bare cellulose fibers or bare waste paper as support fibers, the surprising observation has now been made that these can achieve the same good load-bearing capacity as asbestos fibers if they are mechanically treated in a special way before being added to the wet mass. This treatment primarily includes a grinding of the fibers in a cone mill or other comminution device already known to a freeness of 30-70 ⁰ SR (Shopper Riegler). The load-bearing effect of the fibers can be fully regulated (set) via this measurable size, and the load-bearing effect of the fibers treated in this way has proven to be just as good as that of asbestos fibers.

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2Θ54506

The features of the erfi;: uiuiigsgeinäs:.; '3n Her Stellungsvorfahr ens emerge from the attached claims. If you mix the treated cellulose fibers and / or the treated waste paper in a batch with the nasal mass, so that the dry fiber weight is proportionally iJ-30 % of the total weight, you get an asbestos-free wet mass, which is for example in the mentioned Hatschek machine can be processed, and which has just as good homogeneity and cohesion as corresponding wet mass containing only asbestos fibers as support fibers.

The reinforcing effect of cellulose fibers is due to their organic structure, naturally lower than that of asbestos fibers. Their lower thickness and the fact that their share of the wet mass only little more than the corresponding anto-il of asbestos fibers but now allow the introduction of additional fibers into the wet mass, which only have a reinforcing effect, without the fiber content, which is critical with regard to optimal bonding, needs to be grounded. Thanks to this also treated cellulose existing support fibers can be compared to the strength properties of the finished panel, compared to the only asbestos as a support fiber containing plate, even improve, vind because Now there is the possibility of adding a higher proportion of solid and therefore generally heavy reinforcing fibers. the Autoclaving can also be retained. The exposure to heat naturally has an adverse effect on Load-bearing fiber properties, but the strength can be increased by adding various atitoclave resistant, generally more inorganic Keep additional fibers at the required level.

In one embodiment of the invention, Portland cement is used as the binding agent and as support fibers, hardwood cellulose fibers and / or correspondingly waste paper, from which / from which the binder hardening takes place harmful substances, primarily sugar ', have been removed, processed.

In another embodiment of the invention, earths are used as binders Portland cement and softwood cellulose fibers and / or waste paper treated according to the invention as support fibers.

Of course, in connection with the invention Process also other already known hydraulic binders processed v / ground.

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Claims (1)

A 43 2o2 m 2814506 ... PATENTANWÄLTE 7 STU HfGASY- -., UHLAHDaTA 14 c 1.) For the production of an asbestos-free building board raw board used, according to the itofwickelverfafaren manufacturing process, in which the Ifassma.sse leading to the raw board as supporting fibers cellulose fibers and / or waste paper and other components hydraulic binder, water and, if necessary, inorganic or organic additional fibers and / or mineral additives, such as kieselguhr, perlite, vermiculite, limestone powder, quartz and the like, characterized in that the cellulose fibers and / or the waste paper are reduced to a degree of grinding before they are added to the other components of the wet mass leading to the raw board of 30-7O ⁰ SR (Shopper Riegler) ground and ground in such a way that the dry weight of the cellulose fibers is 3-30 % of the total weight. 2 » Every drive to. Claim 1, in which Portland cement is processed as the binding agent, characterized in that hardwood cellulose fibers and / or corresponding waste paper are used as the support fibers, from which or from which the substances that aggravate the hardening of the binding agent have previously been removed. 3. The method according to claim 1, in which Portland cement is used as the binding agent, characterized in that softwood cellulose fibers and / or waste paper are used as the supporting fibers. SGä030 / 0601